JP6370320B2 - Equipment management support system, equipment management support method, information terminal, and program - Google Patents

Description

  The present invention relates to a support system for equipment management.

  In general, a system for controlling equipment such as an air conditioner using an information terminal such as a mobile phone has been proposed. For example, in Patent Document 1, an indoor space temperature is measured by a temperature sensor provided in a mobile phone, the measurement data is transmitted to an air conditioning equipment management device, and the air conditioning equipment management device is based on the measurement data. A system for remotely controlling the operation of the system is disclosed.

JP 2004-20132 A

  However, the system disclosed in Patent Document 1 can comfortably control the indoor space temperature by controlling the air conditioner using the information terminal, but the equipment such as the air conditioner maintenance It is not a system that supports management.

  Therefore, an object of the present invention is to provide a system, a method, an information terminal, and a program that support facility equipment management.

The facility management support system of the present invention includes an information terminal and a server that communicates with the information terminal, and is a facility management support system that supports management of at least one facility device, the information terminal including the at least one facility the acquires the work information about the equipment and device identification information identifying one of the equipment of the device, and sends the device identifying information and the task information to the server, the device identification information , Including arrangement information indicating a relative position of a second equipment device of the at least one equipment device with respect to an installation position of the first equipment equipment of the at least one equipment device, wherein the server includes the information terminal The device specifying information and the work information transmitted from are stored in a state of being associated with each other.
The facility management support method of the present invention is a facility management support method for supporting management of at least one facility device in a system including an information terminal and a server that communicates with the information terminal, wherein the at least one facility A step of acquiring arrangement information indicating a relative position of a second facility device of the at least one facility device with respect to an installation position of the first facility device of the devices, and a step of acquiring work information relating to the facility device Transmitting the arrangement information and the work information from the information terminal to the server; and the arrangement information and the work information transmitted from the information terminal are stored in the server in a state of being associated with each other. And a step.
An information terminal of the present invention is an information terminal that supports management of at least one equipment device, and is a communication unit that communicates with a server, and an installation position of a first equipment device among the at least one equipment device. An information acquisition unit that acquires arrangement information indicating a relative position of a second facility device among the at least one facility device; and a control unit that acquires work information related to the facility device, wherein the control unit includes: The arrangement information and the work information are stored in the server in a state of being associated with each other.
The program of the present invention allows a computer that supports management of at least one equipment using a server to have a computer installed in the at least one equipment with respect to an installation position of the first equipment in the at least one equipment. A process of acquiring arrangement information indicating a relative position of the second equipment device, a process of obtaining work information related to the equipment device, and the arrangement information and the work information are stored in the server in a state of being associated with each other. And processing.

  According to the present invention, it is possible to store information on equipment acquired by the information terminal in the server, so that equipment management can be facilitated.

It is a block diagram which shows roughly the structure of the air-conditioning equipment maintenance assistance system as an equipment management assistance system which concerns on embodiment of this invention. It is a flowchart which shows an example of operation | work information input operation | movement. It is a flowchart which shows an example of the operation | movement in a maintenance operation | work. It is a figure which shows an example of the relative position data measurement operation | movement by a position measurement part. It is a flowchart which shows an example of the server storing operation | movement of apparatus specific information and work information. It is a flowchart which shows an example of the display operation of management information. It is a block diagram which shows roughly the structure of the information terminal in the air-conditioning equipment maintenance assistance system which concerns on a modification.

  FIG. 1 is a block diagram schematically showing a configuration of an air conditioning equipment maintenance support system 1 as an equipment management support system according to the present embodiment.

  The air conditioning equipment maintenance support system 1 includes at least one information terminal 10 and at least one server 20 that communicates with the information terminal 10 via an upper network such as the Internet network 40. The air conditioning equipment maintenance support system 1 is a system that supports management of at least one facility equipment. However, the air conditioning equipment maintenance support system 1 may include at least one equipment device.

  The facility device is, for example, a device such as an air conditioner, a monitoring camera, an alarm device, or a lighting device provided in a building. In the present embodiment, the equipment is an air conditioner. In the present embodiment, the first air conditioner 31 and the second air conditioner 32 will be described as examples of equipment, but the number of air conditioners may be 1 or 3 or more.

  In the air conditioning equipment maintenance support system 1, when a maintenance worker (hereinafter referred to as “user”) performs maintenance work on an air conditioning equipment (for example, the first air conditioning equipment 31 or the second air conditioning equipment 32), Maintenance work is performed using the information terminal 10 that supports management.

  The information terminal 10 is a portable information processing device such as a mobile computer or a smartphone. The information terminal 10 includes a control unit 100, an information acquisition unit 110, and a communication unit 120. Furthermore, the information terminal 10 includes a storage unit 130, an input unit 140, and a display unit 150.

  The control unit 100 includes a main control unit 101, a position measurement unit 102, and an arrangement information creation unit 103.

  The main control unit 101 can exchange information with the server 20 via the communication unit 120. Furthermore, the main control unit 101 can acquire information (for example, device identification information) related to the air conditioner from the information acquisition unit 110. Further, the main control unit 101 can acquire work information related to the air conditioner input from the input unit 140.

  The position measuring unit 102 can measure at least one of the position of the information terminal 10, the moving distance (the number of steps of the user), and the moving direction. That is, the position measuring unit 102 can measure at least one of the position of the user who operates the information terminal 10, the moving distance (the number of steps of the user), and the moving direction. For example, in the present embodiment, the position measuring unit 102 includes an acceleration sensor and a geomagnetic sensor, and has a pedometer function and an azimuth meter function. The acceleration sensor can measure the moving distance (the number of steps of the user) of the user who operates the information terminal 10. The geomagnetic sensor can measure the moving direction of the user who operates the information terminal 10. However, the sensor included in the position measurement unit 102 is not limited to the combination of the acceleration sensor and the geomagnetic sensor. The position measurement unit 102 may include a sensor other than the acceleration sensor and the geomagnetic sensor. For example, the position measuring unit 102 may measure the position of the information terminal 10 by a GPS (Global Positioning System) function.

  The arrangement information creation unit 103 creates arrangement information of the air conditioning equipment. The arrangement information is information (for example, a value or a character string) indicating the installation position of the air conditioner. The arrangement information is indicated by, for example, two-dimensional coordinates (x, y). The arrangement information is not limited to the two-dimensional coordinates, and is information indicated by the inclination of the information terminal 10 (an inclination measured by a geomagnetic sensor or an acceleration sensor) when the air conditioner is imaged and the installation height of the air conditioner. Also good.

  The information acquisition unit 110 (model information reception unit) selects one of the air conditioning devices (for example, the first air conditioning device 31 or the second air conditioning device 32) from among at least one air conditioning device in the air conditioning device maintenance support system 1. Acquire device specifying information (also referred to as “facility device information”). The information acquisition unit 110 is a wireless communication interface that communicates with the first air conditioner 31 and the second air conditioner 32, for example. The information acquisition unit 110 may include a camera having an imaging function and a two-dimensional barcode reader.

  The communication unit 120 (management information receiving unit) communicates with the server 20. The communication unit 120 is an interface capable of communicating with an external terminal such as the server 20 via the Internet network 40 by, for example, wireless communication or wired communication.

  The storage unit 130 (information storage unit) can store device specifying information and work information in association with each other.

  The device identification information includes model information and arrangement information associated with the model information.

  The model information is information indicating the model (type), location, setting, etc. of the air conditioner. The model information includes at least one of “model code”, “address”, and “group”. The “model code” is a value or a character string indicating the model of the air conditioner. “Address” is a value or a character string assigned in the air conditioning equipment maintenance support system 1. “Group” indicates an operation group of air conditioners (a group of air conditioners that perform the same operation). For example, when the 1st air conditioning equipment 31 and the 2nd air conditioning equipment 32 belong to the same group, the 1st air conditioning equipment 31 and the 2nd air conditioning equipment 32 operate | move simultaneously according to a user's operation.

  The work information is information related to the air conditioner, for example, information input to the information terminal 10 by the user during maintenance work. The work information includes at least one of property information, worker information, and work date information. The property information is information (for example, a character string indicating a building name, a floor name, etc.) indicating a place where an air conditioner is installed. The worker information is information (for example, a value or a character string indicating a user who acquires, creates, or edits device identification information) indicating a user who performs maintenance work on the air conditioner using the information terminal 10. The work date / time information is information (for example, a value or a character string indicating the date / time when the device identification information is acquired, created, or edited using the information terminal 10) indicating the date and time when the maintenance work for the air conditioner is performed.

  The input unit 140 is, for example, a touch panel, a button, or a voice input interface through which information is input by a user. The user can edit information such as device identification information and work information stored in the storage unit 130 using the input unit 140.

  The display unit 150 is, for example, a display that displays information. The user can browse information such as device identification information and work information stored in the storage unit 130 using the display unit 150.

  The server 20 includes a terminal communication unit 210 that communicates with the information terminal 10 and a management information storage unit 220 that stores information (for example, device identification information and work information).

  The first air conditioner 31 of at least one air conditioner includes a model information storage unit 311 (first model information storage unit) and a model information transmission unit 312 (first model information transmission unit).

  The model information storage unit 311 stores information regarding the first air conditioner 31. For example, the model information storage unit 311 can store model information of the first air conditioner 31. In the present embodiment, model information of the first air conditioner 31 is stored in advance in the model information storage unit 311. The model information transmission unit 312 transmits the information stored in the model information storage unit 311 to the information terminal 10 (for example, the information acquisition unit 110). For example, the model information transmission unit 312 is a wireless communication interface for performing wireless communication with the information terminal 10. However, the model information transmission unit 312 may have a two-dimensional barcode associated with the model information of the first air conditioner 31.

  The second air conditioner 32 of the at least one air conditioner includes a model information storage unit 321 (second model information storage unit) and a model information transmission unit 322 (second model information transmission unit).

  The model information storage unit 321 stores information regarding the second air conditioner 32. For example, the model information storage unit 321 can store model information of the second air conditioner 32. In the present embodiment, model information of the second air conditioner 32 is stored in advance in the model information storage unit 321. The model information transmission unit 322 transmits information stored in the model information storage unit 321 to the information terminal 10 (for example, the information acquisition unit 110). For example, the model information transmission unit 322 is a wireless communication interface for performing wireless communication with the information terminal 10. However, the model information transmission unit 322 may have a two-dimensional barcode associated with the model information of the second air conditioner 32.

  Next, an equipment management support method (air conditioning equipment management support method) in the air conditioning equipment maintenance support system 1 will be described.

  FIG. 2 is a flowchart illustrating an example of the work information input operation.

  As shown in FIG. 2, when performing maintenance work on the first air conditioner 31 and the second air conditioner 32, the user inputs work information through the input unit 140 of the information terminal 10 (step S11). It memorize | stores in the memory | storage part 130 of the terminal 10 (step S12). In the information terminal 10, when work information is input from the input unit 140 (step S <b> 11), the control unit 100 (for example, the main control unit 101) acquires the work information and stores the acquired work information in the storage unit 130. (Step S12). However, the work information may be input during or after the maintenance work.

FIG. 3 is a flowchart showing an example of the operation in the maintenance work.
FIG. 4 is a diagram illustrating an example of the relative position data measurement operation by the position measurement unit 102.
An example of the maintenance work operation in the air conditioning equipment maintenance support system 1 will be described below with reference to FIGS. 3 and 4. In the present embodiment, the maintenance work operation will be described by taking as an example a case where the position measuring unit 102 has a pedometer function and an azimuth function.

  The user moves together with the information terminal 10 directly below the first air conditioner 31 and acquires model information as device identification information by the information terminal 10 (step S21). In step S <b> 21, when the first air conditioner 31 receives a model information request command from the information terminal 10, the model information transmission unit 312 of the first air conditioner 31 stores the model information stored in the model information storage unit 311. It transmits to the information acquisition part 110 of the information terminal 10. The main control unit 101 of the information terminal 10 acquires model information from the first air conditioner 31 via the information acquisition unit 110.

  In step S <b> 22, the control unit 100 (for example, the main control unit 101) of the information terminal 10 stores the acquired model information in the storage unit 130. In step S22, the model information may be stored in the storage unit 130 by a user operation. When the information terminal 10 receives the model information from the first air conditioner 31, the control unit 100 automatically stores the model information. May be stored.

  In steps S21 and S22, an image of the first air conditioner 31 is acquired by the camera of the information acquisition unit 110, and model information is acquired by matching with an image stored in the model image database in the information terminal 10 or the server 20. May be. In this case, the model information of the first air conditioner 31 needs to be stored in advance in the storage unit 130 of the information terminal 10 or the management information storage unit 220 of the server 20. Thereby, the control unit 100 (for example, the main control unit 101) of the information terminal 10 can acquire the model information of the first air conditioner 31 from the storage unit 130 or the management information storage unit 220.

  When the first air conditioning device 31 is the first maintenance target device from the start of the maintenance work (“NO” in step S23), the information terminal 10 (for example, the arrangement information creating unit 103) displays the first air conditioning device 31. The first position that is the position (model information reception point) from which the model information is acquired is set as information indicating the reference position (step S24). In other words, the first position is set as the reference position “(x, y) = (0, 0)” indicated by the two-dimensional coordinates. However, as shown in FIG. 4, the first position may be set as information including the moving direction, that is, “(x, y, direction) = (0, 0, 0 °)”.

  The information terminal 10 (for example, the arrangement information creation unit 103) creates the arrangement information (step S28) and stores it in the storage unit 130 in association with the model information (step S29). In the present embodiment, the arrangement information is represented by two-dimensional coordinates. For example, the first arrangement information indicating the installation position of the first air conditioner 31 is represented by the two-dimensional coordinates “(x, y) = (0, 0)”. However, as shown in FIG. 4, the first arrangement information may be created as information including the moving direction, ie, “(x, y, direction) = (0, 0, 0 °)”. . The first arrangement information is stored in the storage unit 130 in association with the model information of the first air conditioner 31 by the control unit 100 (for example, the main control unit 101 or the arrangement information creation unit 103).

  The user can edit the arrangement information on the information terminal 10. When the arrangement information is not edited (“NO” in step S30) and the maintenance work is finished (“YES” in step S32), the maintenance work flow is finished.

  On the other hand, when the maintenance work for the second air conditioning equipment 32 that is the second maintenance object is performed after the maintenance work for the first air conditioning equipment 31 that is the first maintenance object ("NO" in step S32), 4, the user moves directly below the second air conditioner 32 together with the information terminal 10 (return to step S21).

  Returning to step S21, the model information of the second air conditioner 32 is acquired by the information terminal 10 (step S21). In step S <b> 21, when the second air conditioner 32 receives a model information request command from the information terminal 10, the model information transmission unit 322 of the second air conditioner 32 stores the model information stored in the model information storage unit 321. It transmits to the information acquisition part 110 of the information terminal 10. The main control unit 101 of the information terminal 10 acquires model information from the second air conditioner 32 via the information acquisition unit 110 (step S21), and stores the acquired model information in the storage unit 130 (step S22). In step S21, the position (model information reception point) from which the model information of the second air conditioner 32 is acquired is set as the second position.

  When the air conditioner to be maintained is the second or later air conditioner ("YES" in step S23), the process proceeds to step S25. Therefore, in the present embodiment, the second air conditioner 32 is the second maintenance target air conditioner, and thus the process proceeds to step S25.

  In step S25, the number of steps (step count data) of the user from the nth (n is an integer equal to or greater than 1) air conditioner to the (n + 1) th air conditioner is acquired. In the present embodiment, the measurement of the number of steps of the user is started from the time when the model information of the first air conditioner 31 is acquired, and the position measurement unit 102 determines between the first position and the second position. The number of steps of the user at Therefore, the position measuring unit 102 acquires the number of steps of the user between the first position and the second position (the position from which the model information of the second air conditioner 32 has been acquired), thereby obtaining the first air conditioner. The number of steps from 31 to the second air conditioner 32 is acquired.

  The number of steps of the user (movement distance of the user) is measured by the acceleration sensor of the position measurement unit 102. The measurement of the number of steps may be started by the user's operation, and is automatically measured at a predetermined timing (for example, when the maintenance work is started or when the maintenance work of a specific air conditioner is completed). May be started.

  In step S26, the orientation of the (n + 1) th air conditioner with respect to the nth air conditioner is acquired. In the present embodiment, the measurement of the moving direction (direction data) for each step of the user is started from the time when the model information of the first air conditioner 31 is acquired. The moving direction for each step between the user and the second position is measured. Therefore, the position measuring unit 102 acquires the orientation of the second air conditioner 32 relative to the first air conditioner 31 by obtaining the orientation of the second position with respect to the first position using the measurement data. The moving azimuth for each step of the user is an azimuth based on the position one step before. However, the orientation with respect to the first position may be measured step by step.

  The moving direction of the user is measured by the geomagnetic sensor of the position measuring unit 102. The measurement of the moving direction may be started by the user's operation, and is automatically performed at a predetermined timing (for example, when the maintenance work is started or when the maintenance work of a specific air conditioner is completed). Measurement may be initiated.

  In step S27, the relative position (relative position data) of the (n + 1) th air conditioner with respect to the nth air conditioner is derived using the step count data (movement distance) and direction data acquired in steps S25 and S26. In the present embodiment, the relative position of the second air conditioner 32 with respect to the first air conditioner 31 is derived (step S27).

  In step S28 after step S27, the information terminal 10 (for example, the arrangement information creation unit 103) uses the relative position data acquired in step S27 to indicate the second installation position of the second air conditioner 32. Create placement information. For example, the second arrangement information is represented by two-dimensional coordinates “(x, y) = (10, 10)”. By previously inputting the distance per step of the user to the information terminal 10, the moving distance of the user and the information terminal 10 on the two-dimensional coordinates (the number of steps × the distance per step) is calculated. However, as shown in FIG. 4, the second arrangement information may be created as information including the moving direction, that is, “(10, 10, 30 °)”. In the example shown in FIG. 4, the azimuth of the second position with respect to the first position is 30 ° with respect to the x axis.

  When the second arrangement information is created, it is stored in the storage unit 130 of the information terminal 10 (step S29). The second arrangement information is associated with the model information of the second air conditioner 32 by the control unit 100 (for example, the main control unit 101 or the arrangement information creation unit 103) and stored in the storage unit 130. The storage of the second arrangement information may be performed by a user operation, and when the arrangement information of the second air conditioner 32 is created, the control unit 100 (for example, the main control unit 101 or the arrangement information creation unit 103). May be performed automatically.

  When editing the arrangement information (“YES” in step S30), the user edits the arrangement information using the input unit 140 of the information terminal 10. For example, the second arrangement information “(x, y) = (10, 10)” of the second air conditioner 32 can be changed to “(x, y) = (10, 13)”. Further, the user can edit the model information on the information terminal 10.

  Until the maintenance work for all the air conditioners to be maintained in the air conditioner maintenance support system 1 (from the first air conditioner 31 to the Nth air conditioner (N is an integer equal to or greater than 2)) is completed, step S21 to step S32 The flow up to is repeated. By performing maintenance work for each air conditioner, model information and arrangement information are acquired and stored in the storage unit 130 of the information terminal 10. The user can browse the information stored in the storage unit 130 using the display unit 150.

  FIG. 5 is a flowchart illustrating an example of the server storing operation of the device identification information and the work information.

The user can store the device identification information (model information, arrangement information, etc.) and the work information acquired in the maintenance work in association with each other in the storage unit 130 of the information terminal 10 (step S41). However, when the model information is stored in the storage unit 130 in step S22 shown in FIG. 3, the model information may be stored in association with the work information input in step S11. Similarly, when the placement information is stored in the storage unit 130 in step S29 shown in FIG. 3, the placement information may be stored in association with the work information input in step S11.

  The user can store the device specifying information and work information associated with each other in the server 20 (step S42). Specifically, the control unit 100 (for example, the main control unit 101) of the information terminal 10 transmits the device identification information and work information stored in the storage unit 130 to the server 20 via the communication unit 120.

  The management information storage unit 220 of the server 20 receives the device specifying information and work information transmitted from the information terminal 10 via the terminal communication unit 210 (step S43), and associates the received device specifying information and work information with each other. The stored state is stored (step S44). The management information storage unit 220 of the server 20 stores device identification information and work information associated with each other as management information.

The user can acquire the device identification information and work information stored in the server 20 as management information from the server 20 and display it on the display unit 150 of the information terminal 10.
FIG. 6 is a flowchart illustrating an example of a display operation of management information (device identification information and work information associated with each other).

  For example, the user uses the information terminal 10 to transmit a transmission command for requesting transmission of management information to the server 20 (step S51). In the information terminal 10, the control unit 100 (for example, the main control unit 101) transmits a transmission command for requesting transmission of management information to the server 20 via the communication unit 120. The management information transmission command includes, for example, device identification information such as model information and arrangement information. However, the administrator of the server 20 may input a management information transmission command to the server 20.

  When the server 20 receives the transmission command from the information terminal 10, the server 20 transmits the management information stored in the management information storage unit 220 to the information terminal 10 according to the transmission command (step S52). In step S52, work information associated with the device identification information (for example, arrangement information) included in the transmission command and device identification information (for example, model information) associated with the operation information are transmitted to the information terminal 10. The However, the information transmitted to the information terminal 10 may be selected by the user.

  The control unit 100 of the information terminal 10 receives the device identification information and work information transmitted from the server 20 via the communication unit 120 (step S53).

  The control unit 100 (main control unit 101) of the information terminal 10 displays the received device identification information and work information on the display unit 150 (step S54).

  The information terminal used in steps S51 to S54 may be different from the information terminal 10 used in steps S21 to S32 and steps S41 to S42.

  According to the air-conditioning equipment maintenance support system 1 according to the present embodiment, the information regarding the air-conditioning equipment (device-specific information and work information) acquired by the information terminal 10 can be stored in the server 20, so that air-conditioning equipment management is easy Can be. For example, by acquiring information related to the maintenance target air conditioner from the server 20 before performing the maintenance work of the air conditioner, it is possible to easily check the information related to the maintenance target air conditioner.

  Furthermore, since information regarding the air conditioner (device identification information and work information) can be stored in the server 20, information regarding the air conditioner can be shared among a plurality of users. Similarly, it is possible to share information regarding air conditioning equipment among a plurality of information terminals 10.

  According to the air-conditioning equipment maintenance support system 1 according to the present embodiment, the latest air-conditioning equipment arrangement information can be created during maintenance work even when the arrangement of the air-conditioning equipment changes. As a result, the latest arrangement information can be managed. Therefore, since the latest arrangement information of the air conditioning equipment can be stored in the information terminal 10 or the server 20, the user can check the latest arrangement information at the next maintenance work.

  A smart phone can be employed as the information terminal 10. Even if it is a generally used smartphone, an air conditioner according to the present embodiment can be obtained by using a smartphone in which electronic devices such as a touch panel, a liquid crystal display, a camera, an acceleration sensor, and a geomagnetic sensor are mounted in advance. The maintenance support system 1 can be realized at a low cost.

Modified example.
FIG. 7 is a block diagram schematically showing the configuration of the information terminal 10a in the air conditioning equipment maintenance support system according to the modification. The information terminal 10a is applicable to the information terminal 10 in the air conditioning equipment maintenance support system 1 according to the embodiment.

  The configuration of the control unit 100a of the information terminal 10a is different from the control unit 100 of the information terminal 10 in the air conditioning equipment maintenance support system 1, and the other points are the same. The information terminal 10a can be used as a computer that supports management of air conditioning equipment using a server.

  The control unit 100a includes a processor 101a such as a CPU (Central Processing Unit), a ROM (Read Only Memory) 101b, and a RAM (Random Access Memory) 101c. The ROM 101b stores a program for controlling components in the information terminal 10a. The RAM 101c is used as a storage area for loading a program or the like stored in the ROM 101b. For example, the processor 101a implements the function of the control unit 100a by loading the program into the RAM 101c and executing the program. For example, a plurality of processes by the control unit 100 of the information terminal 10 described in the embodiment (each function of the main control unit 101, the position measurement unit 102, and the arrangement information creation unit 103 of the information terminal 10 illustrated in FIG. 1) Is realized by the processor 101a executing a program stored in the ROM 101b.

  The features in the embodiment described above and the features in the modified examples can be appropriately combined with each other.

  DESCRIPTION OF SYMBOLS 1 Air-conditioning equipment maintenance support system, 10, 10a Information terminal, 20 Server, 31 1st air-conditioning equipment, 32 2nd air-conditioning equipment, 40 Internet network, 100, 100a Control part, 101 Main control part, 102 Position measurement part, 103 arrangement information creation unit, 110 information acquisition unit, 120 communication unit, 130 storage unit, 140 input unit, 150 display unit, 210 terminal communication unit, 220 management information storage unit, 311, 321 model information storage unit, 312, 322 model Information transmitter.

Claims (15)

An information terminal,
A facility management support system comprising a server for communicating with the information terminal, and supporting management of at least one facility device,
The information terminal acquires device specifying information for specifying any one of the at least one facility device and work information regarding the facility device, and transmits the device specifying information and the work information to the server. And
The device specifying information includes arrangement information indicating a relative position of a second facility device of the at least one facility device with respect to an installation position of the first facility device of the at least one facility device,
The server stores the device identification information and the work information transmitted from the information terminal in a state of being associated with each other. The information terminal transmits a transmission command for requesting transmission of the device identification information and the work information associated with each other to the server,
The equipment management support system according to claim 1, wherein when receiving the transmission command, the server transmits the device specifying information and the work information associated with each other to the information terminal.   The equipment management support system according to claim 1, wherein the information terminal includes a position measurement unit that measures a moving distance of a user who operates the information terminal.   The facility management support system according to claim 3, wherein the position measurement unit includes an acceleration sensor that measures the movement distance of the user, and the movement distance of the user is measured by the acceleration sensor. .   The facility management support system according to claim 3 or 4, wherein the position measurement unit measures a moving direction of the user who operates the information terminal.   6. The equipment management support system according to claim 5, wherein the position measuring unit includes a geomagnetic sensor that measures the moving direction of the user, and the moving direction of the user is measured by the geomagnetic sensor. . The facility management support system according to claim 5 or 6, wherein the arrangement information is represented by two-dimensional coordinates using the moving distance of the user and the moving direction of the user . The information terminal, facility management support system according to claim 7, characterized in that it comprises a layout information creation unit for creating a pre-Sharing, ABS location information. The arrangement information creating unit according to claim 8, characterized in that to create a pre-Sharing, ABS location information using the moving azimuth of the moving distance and the user of the user measured by the position measurement unit Equipment management support system.   The work information includes property information indicating a place where the equipment is installed, worker information indicating a user who performs maintenance work on the equipment using the information terminal, and work indicating an execution date and time of the maintenance work. The equipment management support system according to any one of claims 1 to 9, characterized in that it includes at least one of the date and time information.   The said information terminal has an information acquisition part which acquires the said apparatus specific information from the said equipment, The equipment management assistance system of any one of Claim 1 to 10 characterized by the above-mentioned.   The equipment management support system according to claim 1, wherein the equipment is an air conditioner. A facility management support method for supporting management of at least one facility device in a system including an information terminal and a server that communicates with the information terminal,
Obtaining arrangement information indicating a relative position of a second facility device of the at least one facility device with respect to an installation position of the first facility device of the at least one facility device ;
Obtaining work information relating to the equipment;
Transmitting the arrangement information and the work information from the information terminal to the server;
And storing the arrangement information and the work information transmitted from the information terminal in the server in a state of being associated with each other. An information terminal that supports management of at least one equipment device,
A communication unit that communicates with the server;
An information acquisition unit that acquires arrangement information indicating a relative position of a second facility device of the at least one facility device with respect to an installation position of the first facility device of the at least one facility device ;
A control unit for obtaining work information on the equipment;
With
The control unit stores the arrangement information and the work information in the server in a state of being associated with each other. A computer that supports the management of at least one equipment using a server,
A process of acquiring arrangement information indicating a relative position of a second equipment device of the at least one equipment device with respect to an installation position of the first equipment device of the at least one equipment device ;
Processing for obtaining work information relating to the equipment;
A program for causing the server to store the arrangement information and the work information in a state of being associated with each other.

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